The music video for “I Will Glam” by Pedro MarĂn is the first one ever that you can view on teletext. Actually you can only see it on channel four in Spain, between May 18th and May 29th between 21.00 and 23.00, on page 899. Great Works are the creatives behind this. You can find some more background information here.
By the way, I turned off the volume very quickly after the video started, just to warn you.
found @ThisWaste
rAndom international was asked by Philips Electronics’ Lumiblade to create an interactive installation that unlocks the creative potential of their next generation OLED technology. They were inspired by the beautiful mirror finish quality of the individual OLED modules, so the result is an ultra thin interactive mirror light wall. Not like we haven’t seen anything like that before, but still very nice and really thin.
‘Extended Graphics Array‘ is a computer generated animation by Jesper Carlsen. White pixels are drawn on a black screen (1024×768 pixels) at 24 per second. It takes 9 hours and 6 minutes for the screen to turn completely white.
found at
‘Nude #1′ by Felipe Cama.
No, these are not just neon tubes, these are Versa TUBES by Elementslabs. Each element is 1 meter long and it has 16 pixels in it, each pixel has a red, green and blue LED, so in the end you can create over 1 billion possible colors. If you build the tubes together like this, you’ll get 3 panes on which you can run every animation or video you can think of.
I found this picture on MannyB’s flickr account and it look like they will use it as a background for a Nike woman shoot. Now you may guess how I found it …
Once again, a very nice poster by eboy.
Here’s some inspiration for the coming gift season: a pixel scarf by bits2die4.
I can’t explain what it is, just check this link.
TV-Filter allows to downsample an ongoing tv-show to 6 by 8 pixels in realtime. A translucent projection folie is mounted on a 5 cm deep cardboard grid. The color and intensity of each pixel is determined by the correspondend part of the tv screen on the backside. The different color information of each tv line get mixed to an average color value on each 4 by 4 cm pixel. In this way it is thinkable to reduce every high definition screen to a pleasant information density.
